Realization of a Measuring Device for Recordning the Relative Movement between Residual Limb and Prosthetic Socket

Whitmore, Sigrid Ilona

02 August 2018

Relative motion between residual limb and prosthetic socket is an indication of poor fit. Both the fabrication and fitting processes are highly subjective and a favorable result depends upon the technician's expertise. Although numerous methods exist to measure the relative motion, all have limitations and are not well suited for clinical use. A measurement system using optical sensors has been proposed by students at the Technische Universität Darmstadt and evaluations of a functional model have yielded promising results. In this thesis, the existing functional model is improved and expanded to use an array of sensors. A new microcontroller is selected and incorporated into the system. The software and data communication are optimized for fast, reliable performance and the system is then evaluated on a test rig to determine favorable calibration settings and quantify performance. System frequencies up to 1299 Hz are achieved. It is found that the surface microstructure has a dominant effect over short measurement distances; calibrations performed over longer distances are to be preferred. For the chosen calibration factors, the greatest relative errors over a 40 mm distance are found to be 0.90% ± 0.51% in the X direction and -4.76% ± 1.61% in the Y-direction. A systematic drift is also identified. The final system accommodates up to eight sensors and is controlled from a feature-rich MATLAB GUI. / Master of Science / In lower limb prosthetics, the amount of relative motion between the prosthesis and residual limb is considered an indicator of the quality of fit. As existing methods for measuring this motion are generally difficult to use, a simpler system is desired. The task for this master's thesis is to develop an existing functional model into a measurement system with multiple sensors and validate its performance. The first step is to upgrade the microcontroller responsible for reading the sensor data and transmitting it to the PC. The original codes for both the microcontroller and PC-side Graphical User Interface (GUI) are then examined and optimized for maximum speed. The system is expanded to accommodate multiple sensors and its performance evaluated using a test-rig. Finally, the completed system is prepared for use in a future study by creating the appropriate component housings, wiring, and software functionalities.

Pistoning

Lower Limb Prosthesis

Optical Sensor

Measuring Device

Geração de diretrizes de projeto com o uso do Design For X para o desenvolvimento de prótese de membro inferior de baixo custo / Generation Project requirements with use of design for x development of lower limb prosthesis low cost

Perius, Tiago Faria

January 2014

A presente pesquisa teve por objetivo a geração de diretrizes de projeto para o desenvolvimento de Próteses de Membros Inferiores, que atendesse as necessidades funcionais dos usuários que resulte na simplificação do objeto. Para isso, investigou-se o usuário, percebendo suas necessidades físicas e psicológicas, com conhecimento de leis federais existentes para o auxílio a esse público. Também, foram examinados a anatomia humana e os procedimentos cirúrgicos para a amputação de membros inferiores, a fim de compreender sua influência na concepção de uma prótese. Outro enfoque da pesquisa foi o estudo da biomecânica para reconhecer os movimentos realizados por uma pessoa sadia durante a deambulação, observando-se as etapas da sua marcha em comparação à marcha de indivíduos amputados que utilizavam próteses. Ainda foram analisados distintos tipos de próteses de membros inferiores e a tecnologia empregada em cada uma de suas partes: sistema de encaixe ao coto, joelho protético e sistema pé-tornozelo. Esses estudos originaram dados empregados na aplicação da metodologia do Design for X, para avaliar as próteses atuais em seus aspectos e construção, com o objetivo de gerar diretrizes de projeto para a elaboração de próteses simplificadas. Constatou-se que a aplicação do método originou diretrizes de projeto que poderão ser empregados durante o desenvolvimento de projetos de próteses de membros inferiores, visando à redução de custo do produto. / This research aims to generate design requirements for the development of Lower Limb Prosthetics that meet the functional needs of users, leading to a simplification of the object. For this, we investigated the users regarding their physical and psychological needs, with full knowledge of the existence of federal laws in order to help people. Human anatomy and surgical procedures for lower limb amputation were also examined in order to understand their influence on the design of a prosthesis. Another focus of the research was the study of biomechanics to recognize the movements performed by a healthy person when walking, observing the steps of their march comparing them with the march of amputees who used prosthesis. For the simplified development of prosthesis different types of prosthetic legs have been examined, technology has been employed in each of its parts such as fitting the stump prosthetic knee and the ankle-foot system. These studies yielded useful data used in the application of the methodology of Design for X to assess current prosthetic aspects and construction, to achieve design requirements for the development of simplified prosthesis. It was found that the application of the method originated design requirements that may be employed during the development of lower limb prosthesis projects, aiming to reduce product cost.

Biomecânica

Próteses e implantes

Design de produto

Lower limb prosthesis

Physical disability

Biomechanics

Product design

Geração de diretrizes de projeto com o uso do Design For X para o desenvolvimento de prótese de membro inferior de baixo custo / Generation Project requirements with use of design for x development of lower limb prosthesis low cost

Perius, Tiago Faria

January 2014

A presente pesquisa teve por objetivo a geração de diretrizes de projeto para o desenvolvimento de Próteses de Membros Inferiores, que atendesse as necessidades funcionais dos usuários que resulte na simplificação do objeto. Para isso, investigou-se o usuário, percebendo suas necessidades físicas e psicológicas, com conhecimento de leis federais existentes para o auxílio a esse público. Também, foram examinados a anatomia humana e os procedimentos cirúrgicos para a amputação de membros inferiores, a fim de compreender sua influência na concepção de uma prótese. Outro enfoque da pesquisa foi o estudo da biomecânica para reconhecer os movimentos realizados por uma pessoa sadia durante a deambulação, observando-se as etapas da sua marcha em comparação à marcha de indivíduos amputados que utilizavam próteses. Ainda foram analisados distintos tipos de próteses de membros inferiores e a tecnologia empregada em cada uma de suas partes: sistema de encaixe ao coto, joelho protético e sistema pé-tornozelo. Esses estudos originaram dados empregados na aplicação da metodologia do Design for X, para avaliar as próteses atuais em seus aspectos e construção, com o objetivo de gerar diretrizes de projeto para a elaboração de próteses simplificadas. Constatou-se que a aplicação do método originou diretrizes de projeto que poderão ser empregados durante o desenvolvimento de projetos de próteses de membros inferiores, visando à redução de custo do produto. / This research aims to generate design requirements for the development of Lower Limb Prosthetics that meet the functional needs of users, leading to a simplification of the object. For this, we investigated the users regarding their physical and psychological needs, with full knowledge of the existence of federal laws in order to help people. Human anatomy and surgical procedures for lower limb amputation were also examined in order to understand their influence on the design of a prosthesis. Another focus of the research was the study of biomechanics to recognize the movements performed by a healthy person when walking, observing the steps of their march comparing them with the march of amputees who used prosthesis. For the simplified development of prosthesis different types of prosthetic legs have been examined, technology has been employed in each of its parts such as fitting the stump prosthetic knee and the ankle-foot system. These studies yielded useful data used in the application of the methodology of Design for X to assess current prosthetic aspects and construction, to achieve design requirements for the development of simplified prosthesis. It was found that the application of the method originated design requirements that may be employed during the development of lower limb prosthesis projects, aiming to reduce product cost.

Biomecânica

Próteses e implantes

Design de produto

Lower limb prosthesis

Physical disability

Biomechanics

Product design

Geração de diretrizes de projeto com o uso do Design For X para o desenvolvimento de prótese de membro inferior de baixo custo / Generation Project requirements with use of design for x development of lower limb prosthesis low cost

Perius, Tiago Faria

January 2014

A presente pesquisa teve por objetivo a geração de diretrizes de projeto para o desenvolvimento de Próteses de Membros Inferiores, que atendesse as necessidades funcionais dos usuários que resulte na simplificação do objeto. Para isso, investigou-se o usuário, percebendo suas necessidades físicas e psicológicas, com conhecimento de leis federais existentes para o auxílio a esse público. Também, foram examinados a anatomia humana e os procedimentos cirúrgicos para a amputação de membros inferiores, a fim de compreender sua influência na concepção de uma prótese. Outro enfoque da pesquisa foi o estudo da biomecânica para reconhecer os movimentos realizados por uma pessoa sadia durante a deambulação, observando-se as etapas da sua marcha em comparação à marcha de indivíduos amputados que utilizavam próteses. Ainda foram analisados distintos tipos de próteses de membros inferiores e a tecnologia empregada em cada uma de suas partes: sistema de encaixe ao coto, joelho protético e sistema pé-tornozelo. Esses estudos originaram dados empregados na aplicação da metodologia do Design for X, para avaliar as próteses atuais em seus aspectos e construção, com o objetivo de gerar diretrizes de projeto para a elaboração de próteses simplificadas. Constatou-se que a aplicação do método originou diretrizes de projeto que poderão ser empregados durante o desenvolvimento de projetos de próteses de membros inferiores, visando à redução de custo do produto. / This research aims to generate design requirements for the development of Lower Limb Prosthetics that meet the functional needs of users, leading to a simplification of the object. For this, we investigated the users regarding their physical and psychological needs, with full knowledge of the existence of federal laws in order to help people. Human anatomy and surgical procedures for lower limb amputation were also examined in order to understand their influence on the design of a prosthesis. Another focus of the research was the study of biomechanics to recognize the movements performed by a healthy person when walking, observing the steps of their march comparing them with the march of amputees who used prosthesis. For the simplified development of prosthesis different types of prosthetic legs have been examined, technology has been employed in each of its parts such as fitting the stump prosthetic knee and the ankle-foot system. These studies yielded useful data used in the application of the methodology of Design for X to assess current prosthetic aspects and construction, to achieve design requirements for the development of simplified prosthesis. It was found that the application of the method originated design requirements that may be employed during the development of lower limb prosthesis projects, aiming to reduce product cost.

Biomecânica

Próteses e implantes

Design de produto

Lower limb prosthesis

Physical disability

Biomechanics

Product design

Pevnostní analýza protézy dolní končetiny / Lower limb prosthetics FEM analysis

Omasta, Milan

January 2009

This masters´s thesis deals with computational modeling of transtibial lower-limb prosthesis. For assesment of loading character and geometrical configuration, the gait analysis of an amputee, including ground reaction force measurement, strain gauge analysis and motion analysis, was accomplished. Information on geometry was obtained using 3D optical scanning procedure. Material model was gathered using non-destructive mechanical testing and mimicked in a FEA software. For loading conditions the static structure analysys using FEM was accomplished. The critical poins in construction was found. Recognition of agreement about experimental and computational model was accomplished.

Deformačně-napěťová analýza protézy dolní končetiny / Stress-strain analysis of lower limb prosthetic

Musilová, Kateřina

January 2010

This master thesis deals with lower-limb prosthesis. The aim of the first part of this work is stress-strain analysis of trans-tibial prosthesis, which is understand without prosthetic socket and the foam prosthetic feet. Analysis is made using finite element method in ANSYS Workbench 12.0 software. For the purpose of setting up the computational model it is necessary to make few partial models. Model of geometry of the prosthesis is made in SolidWorks 2009. Based on the outputs of stress-strain analysis and the results evaluation, the critical component is chosen and this one is evaluated according to limite state for fatigue. The algorithm of evaluation of named component in the state of high cycle fatigue is discussed in the second part of this thesis.

Design protézy dolní končetiny pro děti / Design of Human Leg Prosthesis for Children

Malátková, Hana

January 2016

The topic of this master’s thesis is design of human leg prosthesis for children. The thesis concerns own design of transbinal prosthesis for children that meet the basic technical, ergonomical and social requi¬rements and also brings a new look and shape as solution to the main topic. The infant incubator is designed in regard to modern materials and technologies.

Prosthetic Control using Implanted Electrode Signals

Hákonardóttir, Stefanía

January 2014

This report presents the design and manufacturing process of a bionic signal messagebroker (BSMB), intended to allow communication between implanted electrodes andprosthetic legs designed by Ossur. The BSMB processes and analyses the data intorelevant information to control the bionic device. The intention is to carry out eventdetection in the BSMB, where events in the muscle signal are matched to the events ofthe gait cycle (toe-o, stance, swing).The whole system is designed to detect muscle contraction via sensors implantedin residual muscles and transmit the signals wireless to a control unit that activatesassociated functions of a prosthetic leg. Two users, one transtibial and one transfemoral,underwent surgery in order to get electrodes implantable into their residual leg muscles.They are among the rst users in the world to get this kind of implanted sensors.A prototype of the BSMB was manufactured. The process took more time thanexpected, mainly due to the fact that it was decided to use a ball grid array (BGA)microprocessor in order to save space. That meant more complicated routing and higherstandards for the manufacturing of the board. The results of the event detection indicatethat the data from the implanted electrodes can be used in order to get sucient controlover prosthetic legs. These are positive ndings for users of prosthetic legs and shouldincrease their security and quality of life.It is important to keep in mind when the results of this report are evaluated that allthe testing carried out were only done on one user each.

Myoelectric Control

Prosthesis

Lower Limb Prosthesis

Event Detection

Gait Cycle

PCB Layout

Electrical Design

Medical Engineering

Medicinteknik

Aktivní protéza dolní končetiny / Leg prothesis

Bulva, Ondřej

January 2017

This thesis deals with the current state of development of active lower limb prostheses and focuses mainly on own design of active prostheses. The introduction deals with the anatomy of lower limb and briefly describes the walk cycle. In other chapters are summarized amputation techniques in the lower limb, followed by a description of the allocation of prostheses according to the level of amputation, which were described in earlier chapters. The thesis also deals with the division of prostheses according to the patient's activity level and briefly describes the structural differences in these individual cases. Chapter describing the actual development in the field of active prostheses initiates part dealing with the detailed description of the part of the prosthesis. The following chapters deal with the design and implementation of a prototype of active transfemoral prosthesis. The penultimate chapter deals with the software description of all parts of the prosthesis. This chapter is followed by an evaluation of the achieved results.

Investigation of Orthopedic Prosthesis Socket Management after Transfemoral Amputation by Expert Survey

Carabello, Alina, Schellnock, Julia, Schleifenbaum, Stefan, Hömme, Ann-Kathrin, Felderhoff, Thomas, Menküc, Benjamin Sefa, Drossel, Welf-Guntram

10 January 2024

Prosthesis treatment requires the close interaction of different actors. In fitting prostheses to patients, special attention is given to the manufacturing of the socket. The continuous development of the technologies involved in the fitting and optimization of prostheses is shown in the literature. The assessment of orthopedic technicians and their influence in the process is thus far largely unexplored. Ten orthopedic technicians were interviewed about the socket fitting process after transfemoral amputation. The research goal was to clarify the socket treatment process with regards to the German context. The results showed that the orthopedic technicians focussing on the patient during the fitting process. This study underlines the importance of interaction and empathy. Volume fluctuations are decisive within the treatment process and are interactively influenced by various factors. Furthermore, the research emphasizes the need for appropriate assistive technologies and the potential for the further development of existing systems.

info:eu-repo/classification/ddc/610

ddc:610